Rainbow Electronics MAX7480 User Manual

MAX7480

8th-Order, Lowpass, Butterworth,
Switched-Capacitor Filter

6

_______________________________________________________________________________________

NAME

FUNCTION

1

COM

Common Input Pin. Biased internally at mid-supply. Bypass externally to GND with a 0.1µF capacitor. To
override internal biasing, drive with an external supply.

2

IN

Filter Input

PIN

3

GND

Ground

4

V

DD

+5V Supply Input

8

CLK

Clock Input. To override the internal oscillator, connect to an external clock; otherwise, connect an external
capacitor (C

OSC

) from CLK to GND to set the internal oscillator frequency.

7

SHDN

Shutdown Input. Drive low to enable shutdown mode; drive high or connect to V

DD

for normal operation.

6

OS

Offset Adjust Input. To adjust output offset, bias OS externally. Connect OS to COM if no offset adjustment is
needed. Refer to

Offset and Common-Mode Input Adjustment

section.

5

OUT

Filter Output

Pin Description

_______________Detailed Description

The MAX7480 Butterworth filter operates with a 100:1
clock-to-corner frequency ratio and a 2kHz maximum
corner frequency.

Lowpass Butterworth filters provide a maximally flat
passband response, making them ideal for instrumen-
tation applications that require minimum deviation from
the DC gain throughout the passband.

Figure 1 shows the difference between Bessel and
Butterworth filter frequency responses. With the filter
cutoff frequencies set at 1kHz, trace A shows the
Bessel filter response and trace B shows the
Butterworth filter response.

Background Information

Most switched-capacitor filters (SCFs) are designed
with biquadratic sections. Each section implements two
filtering poles, and the sections are cascaded to pro-
duce higher-order filters. The advantage to this
approach is ease of design. However, this type of
design is highly sensitive to component variations if any
section’s Q is high. An alternative approach is to emu-
late a passive network using switched-capacitor inte-
grators with summing and scaling. Figure 2 shows a
basic 8th-order ladder filter structure.

A switched-capacitor filter such as the MAX7480 emu-
lates a passive ladder filter. The filter’s component sen-
sitivity is low when compared to a cascaded biquad
design, because each component affects the entire fil-
ter shape, not just one pole-zero pair. In other words, a
mismatched component in a biquad design will have a
concentrated error on its respective poles, while the
same mismatch in a ladder filter design results in an
error distributed over all poles.

-100

-60

-80

-20

-40

0

20

0.1

0.5

1

0.2

A

B

2

5

10

FREQUENCY (kHz)

GAIN (dB)

A: BESSEL FILTER RESPONSE; f

C

= 1kHz

B: BUTTERWORTH FILTER RESPONSE; f

C

= 1kHz

Figure 1. Bessel vs. Butterworth Filter Frequency Response

L3

L5

L7

C8

R2

C4

C2

V

IN

+

-

V

0

L1

R1

C6

Figure 2. 8th-Order Ladder Filter Network